Lvquan Catalytic Combustion Equipment L1, a product of a renowned Chinese manufacturer and supplier, boasts competitive pricing and unmatched quality, standing out as a preferred option for efficient and eco-friendly combustion applications.
LvQuan Catalytic Combustion Equipment L1, originating from China, is a precision-engineered product manufactured and supplied by a leading manufacturer in the field. This equipment offers competitive prices, making it an economically viable option for various industrial applications. Its unwavering commitment to quality ensures reliable performance and long-term durability. The Lvquan Catalytic Combustion Equipment L1 incorporates advanced catalytic combustion technology, delivering efficient and clean energy conversion from a wide range of fuels. Its intelligent design and user-friendly operation make it a convenient choice for industrial facilities seeking sustainable and environmentally friendly combustion solutions. Whether you're looking to upgrade your existing combustion system or invest in a new one, the Lvquan Catalytic Combustion Equipment L1 is an excellent choice for its superior performance and value.
Catalytic Combustion Equipment L1 is a purification method that uses catalysts to oxidize and decompose combustible substances in exhaust gas at low temperatures. Therefore, catalytic combustion is also known as catalytic chemical conversion. Since the catalyst accelerates the process of oxidation and decomposition,most hydrocarbons can be completely oxidized by the catalyst at temperatures between 250 300°℃ .
The new Co series adopts a more reasonable layout and a more opti- mized structure, making it more convenient to replace and maintain and with a high heat exchange efficiency. Catalytic Combustion Equipment L1 is mainly suitable for industries such as petrochemicals that require high purification efficiency.
Applicable industries | petrochemicals,printing,paint production,coating/laminating,etc. |
Organic compounds | alkanes,aromatic hydrocarbons,ketones,phenols,alcohols,ethers,and alkanes. |
Concentration range | 1000~6000MG/M² |
Low energy consumption | Only 30~45min preheat is required for start-up,and the preheat temperature is generally 250~300C |
Low resistance | Optimized heat exchanger structure,low catalyst design air velocity(10000~15000ht-1) |
Higheffictency of waste heat recovery | Compared with the same type of products,the heat recovery efficiency can reach 70%by using various specifications of concave and convex plates |
High purification efficiency | The heat exchanger adopts new welding technology to ensure no tearing and stringing of gas in the weld seam during hot and cold alternation,and the maximum purification effi lency of the body can reach 98.5% or more |
Easy to operate | Adopt traditional electric control or adopt industrial controller control,one key start and top after the parameters are adjusted to realize unattended supervision |
1.The exhaust gas must not contain ingredients that poison or permanently deactivate the catalyst,such as:chlorine,sulfur,halogens,heavy metals,etc.
2.the concentration of mixed exhaust gas into the catalytic combustion equipment<1/4 LEL explosion lower limit range.
3.the limit temperature of catalytic combustion is ≤600C.high heat substances.high concentration of gas need to be diluted to prevent the reaction chamber temperature over temperature leads to catalyst inactivation can not be catalytic reduction reaction.
4.The Catalytic Combustion Equipment L1 must not contain dust particles or oil mist that will block or cause tempering.
LQ | Company Code for Lv Quan Inc. |
50 | Processing Air Volume (1/10). |
ECO/GCO |
catalytic combustion heating method ECO-electric heating type catalytic combustion GCO-natural gas heating type catalytic combustion |
Note:According to the catalytic combustion heating method different product number abbreviation code
Handling air capacity | 200 | 500 | 1000 | 2000 | 3000 | 5000 | 6000 | 8000 | 10000 | 12000 | 15000 | 18000 | 20000 | 25000 | 30000 | |
m³/h | ||||||||||||||||
Electric | Power (Kw) | 27 | 37.8 | 66 | 82.5 | 92.4 | 113.4 | 120 | 148.5 | 198 | 210 | 243 | 283.5 | 336 | / | / |
Supply voltage (V) | AC380V 50Hz,power supply mode 3L+1N+1P | AC380V 50Hz,power supply mode 3L+1N+1P | ||||||||||||||
Natural gas auxiliary hea | Gas pressure | 0.2~0.3bar(20~30Kpa、 0.2~0.3kgf/cm²) | 0.2~0.3bar(20~30Kpa、 0.2~0.3kgf/c m²) | |||||||||||||
Natural gas flow | 1.7~4.3m³/h | 4.8~10m³/h | 5~16m²/h | 6~20. 5m³/h | 10~28m²/h | 8~41m²/h | ||||||||||
Burner model | BTG3 | BTG11 | BTG15 | BTG20 | BTG28 | BTG35 | ||||||||||
Heat exchange area (m²) | 6.3 | 15.8 | 31.6 | 63.2 | 94.7 | 157.9 | 189.4 | 252.6 | 315.7 | 378.8 | 473.5 | 568.2 | 631.4 | 789.2 | 947.1 | |
System resistance (Pa) | 1500 | 1500 | 1500 | 1500 | 2000 | 2000 | 2500 | 2500 | 2500 | 3000 | 3000 | 3000 | 3500 | 3500 | 3500 | |
Equipment self-weigh (Kg) | 1.2 | 1.7 | 2.1 | 2.4 | 3.2 | 5.4 | 6.5 | 7.2 | 8 | 10 | 12.4 | 14.5 | 16.3 | 18.1 | 20.4 |
Note:The others not shown in the table are non-standard air volume,which can be designed and manufactured separately if there is demand.